/* -*- Mode: C++; tab-width: 2; indent-tabs-mode: nil; c-basic-offset: 2 -*- */ /* This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. */ // Main header first: #include "nsSVGGlyphFrame.h" #include // Keep others in (case-insensitive) order: #include "DOMSVGPoint.h" #include "gfxContext.h" #include "gfxMatrix.h" #include "gfxPlatform.h" #include "mozilla/LookAndFeel.h" #include "nsBidiPresUtils.h" #include "nsDisplayList.h" #include "nsError.h" #include "nsIDOMSVGRect.h" #include "nsRenderingContext.h" #include "nsSVGEffects.h" #include "nsSVGIntegrationUtils.h" #include "nsSVGPaintServerFrame.h" #include "nsSVGRect.h" #include "nsSVGTextPathFrame.h" #include "nsSVGUtils.h" #include "nsTextFragment.h" #include "SVGContentUtils.h" #include "SVGLengthList.h" using namespace mozilla; struct CharacterPosition { gfxPoint pos; gfxFloat angle; bool draw; }; static gfxContext* MakeTmpCtx() { return new gfxContext(gfxPlatform::GetPlatform()->ScreenReferenceSurface()); } /** * This is a do-it-all helper class. It supports iterating through the * drawable character clusters of a string. For each cluster, it can set up * a graphics context with a transform appropriate for drawing the * character, or a transform appropriate for emitting geometry in the * text metrics coordinate system (which differs from the drawing * coordinate system by a scale factor of AppUnitPerCSSPixels). These * transforms include offsets and rotations of characters along paths, and * the mPosition of the nsSVGGlyphFrame. * * This helper also creates the textrun as needed. It supports detecting * the special case when the entire textrun can be drawn or measured * as a unit, and setting the graphics context transform up for that. It * takes care of setting up the global transform if requested. It also * provides direct access to the character path position data for the * DOM APIs that need that. * * If an error occurs, for example, a canvas TM is not available because * the element is in a section, then the CharacterIterator will * behave as if the frame has no drawable characters. * * XXX needs RTL love * XXX might want to make AdvanceToCharacter constant time (e.g. by * caching advances and/or the CharacterPosition array across DOM * API calls) to ensure that calling Get*OfChar (etc) for each character * in the text is O(N) */ class CharacterIterator { public: /** * Sets up the iterator so that NextCluster will return the first drawable * cluster. * @param aForceGlobalTransform passed on to EnsureTextRun (see below) */ CharacterIterator(nsSVGGlyphFrame *aSource, bool aForceGlobalTransform); /** * This matrix will be applied to aContext in the SetupFor methods below, * before any glyph translation/rotation. */ bool SetInitialMatrix(gfxContext *aContext) { mInitialMatrix = aContext->CurrentMatrix(); if (mInitialMatrix.IsSingular()) { mInError = true; } return !mInError; } /** * Try to set up aContext so we can draw the whole textrun at once. * This applies any global transform requested by SetInitialMatrix, * then applies the positioning of the text. Returns false if drawing * the whole textrun at once is impossible due to individual positioning * and/or rotation of glyphs. */ bool SetupForDirectTextRunDrawing(gfxContext *aContext) { return SetupForDirectTextRun(aContext, mDrawScale); } /** * Try to set up aContext so we can measure the whole textrun at once. * This applies any global transform requested by SetInitialMatrix, * then applies the positioning of the text, then applies a scale * from appunits to device pixels so drawing in appunits works. * Returns false if drawing the whole textrun at once is impossible due * to individual positioning and/or rotation of glyphs. */ bool SetupForDirectTextRunMetrics(gfxContext *aContext) { return SetupForDirectTextRun(aContext, mMetricsScale); } /** * We are scaling the glyphs up/down to the size we want so we need to * inverse scale the outline widths of those glyphs so they are invariant */ void SetLineWidthAndDashesForDrawing(gfxContext *aContext) { aContext->SetLineWidth(aContext->CurrentLineWidth() / mDrawScale); AutoFallibleTArray dashes; gfxFloat dashOffset; if (aContext->CurrentDash(dashes, &dashOffset)) { for (uint32_t i = 0; i < dashes.Length(); i++) { dashes[i] /= mDrawScale; } aContext->SetDash(dashes.Elements(), dashes.Length(), dashOffset / mDrawScale); } } /** * Returns the index of the next cluster in the string that should be drawn, * or InvalidCluster() (i.e. uint32_t(-1)) if there is no such cluster. */ uint32_t NextCluster(); /** * Returns the length of the current cluster (usually 1, unless there * are combining marks) */ uint32_t ClusterLength(); /** * Repeated calls NextCluster until it returns aIndex (i.e. aIndex is the * current drawable character). Returns false if that never happens * (because aIndex is before or equal to the current character, or * out of bounds, or not drawable). */ bool AdvanceToCharacter(uint32_t aIndex); /** * Resets the iterator to the beginning of the string. */ void Reset() { // There are two ways mInError can be set // a) If there was a problem creating the iterator (mCurrentChar == -1) // b) If we ran off the end of the string (mCurrentChar != -1) // We can only reset the mInError flag in case b) if (mCurrentChar != InvalidCluster()) { mCurrentChar = InvalidCluster(); mInError = false; } } /** * Set up aContext for glyph drawing. This applies any global transform * requested by SetInitialMatrix, then applies any positioning and * rotation for the current character. */ void SetupForDrawing(gfxContext *aContext) { return SetupFor(aContext, mDrawScale); } /** * Set up aContext for glyph measuring. This applies any global transform * requested by SetInitialMatrix, then applies any positioning and * rotation for the current character, then applies a scale from appunits * to device pixels so that drawing in appunits sizes works. */ void SetupForMetrics(gfxContext *aContext) { return SetupFor(aContext, mMetricsScale); } /** * Get the raw position data for the current character. */ CharacterPosition GetPositionData(); /** * "Invalid" cluster index returned to indicate error state */ uint32_t InvalidCluster() { return uint32_t(-1); } private: bool SetupForDirectTextRun(gfxContext *aContext, float aScale); void SetupFor(gfxContext *aContext, float aScale); nsSVGGlyphFrame *mSource; nsAutoTArray mPositions; gfxMatrix mInitialMatrix; // Textrun advance width from start to mCurrentChar, in appunits gfxFloat mCurrentAdvance; uint32_t mCurrentChar; float mDrawScale; float mMetricsScale; bool mInError; }; class nsDisplaySVGGlyphs : public nsDisplayItem { public: nsDisplaySVGGlyphs(nsDisplayListBuilder* aBuilder, nsSVGGlyphFrame* aFrame) : nsDisplayItem(aBuilder, aFrame) { MOZ_COUNT_CTOR(nsDisplaySVGGlyphs); NS_ABORT_IF_FALSE(aFrame, "Must have a frame!"); } #ifdef NS_BUILD_REFCNT_LOGGING virtual ~nsDisplaySVGGlyphs() { MOZ_COUNT_DTOR(nsDisplaySVGGlyphs); } #endif NS_DISPLAY_DECL_NAME("nsDisplaySVGGlyphs", TYPE_SVG_GLYPHS) virtual void HitTest(nsDisplayListBuilder* aBuilder, const nsRect& aRect, HitTestState* aState, nsTArray *aOutFrames); virtual void Paint(nsDisplayListBuilder* aBuilder, nsRenderingContext* aCtx); }; void nsDisplaySVGGlyphs::HitTest(nsDisplayListBuilder* aBuilder, const nsRect& aRect, HitTestState* aState, nsTArray *aOutFrames) { nsSVGGlyphFrame *frame = static_cast(mFrame); nsPoint pointRelativeToReferenceFrame = aRect.Center(); // ToReferenceFrame() includes frame->GetPosition(), our user space position. nsPoint userSpacePt = pointRelativeToReferenceFrame - (ToReferenceFrame() - frame->GetPosition()); if (frame->GetFrameForPoint(userSpacePt)) { aOutFrames->AppendElement(frame); } } void nsDisplaySVGGlyphs::Paint(nsDisplayListBuilder* aBuilder, nsRenderingContext* aCtx) { // ToReferenceFrame includes our mRect offset, but painting takes // account of that too. To avoid double counting, we subtract that // here. nsPoint offset = ToReferenceFrame() - mFrame->GetPosition(); aCtx->PushState(); aCtx->Translate(offset); static_cast(mFrame)->PaintSVG(aCtx, nullptr); aCtx->PopState(); } //---------------------------------------------------------------------- // Implementation nsIFrame* NS_NewSVGGlyphFrame(nsIPresShell* aPresShell, nsStyleContext* aContext) { return new (aPresShell) nsSVGGlyphFrame(aContext); } NS_IMPL_FRAMEARENA_HELPERS(nsSVGGlyphFrame) //---------------------------------------------------------------------- // nsQueryFrame methods NS_QUERYFRAME_HEAD(nsSVGGlyphFrame) NS_QUERYFRAME_ENTRY(nsISVGGlyphFragmentNode) NS_QUERYFRAME_ENTRY(nsISVGChildFrame) NS_QUERYFRAME_TAIL_INHERITING(nsSVGGlyphFrameBase) //---------------------------------------------------------------------- // nsIFrame methods NS_IMETHODIMP nsSVGGlyphFrame::CharacterDataChanged(CharacterDataChangeInfo* aInfo) { // NotifyGlyphMetricsChange takes care of calling // nsSVGUtils::InvalidateAndScheduleBoundsUpdate on the appropriate frames. NotifyGlyphMetricsChange(); ClearTextRun(); if (IsTextEmpty()) { // The one time that NotifyGlyphMetricsChange fails to call // nsSVGUtils::InvalidateAndScheduleBoundsUpdate properly is when all our // text is gone, since it skips empty frames. So we have to invalidate // ourself. nsSVGUtils::InvalidateBounds(this); } return NS_OK; } // Usable font size range in devpixels / user-units #define CLAMP_MIN_SIZE 8 #define CLAMP_MAX_SIZE 200 #define PRECISE_SIZE 200 /* virtual */ void nsSVGGlyphFrame::DidSetStyleContext(nsStyleContext* aOldStyleContext) { nsSVGGlyphFrameBase::DidSetStyleContext(aOldStyleContext); if (!(GetStateBits() & NS_FRAME_FIRST_REFLOW)) { ClearTextRun(); NotifyGlyphMetricsChange(); } } NS_IMETHODIMP nsSVGGlyphFrame::IsSelectable(bool* aIsSelectable, uint8_t* aSelectStyle) const { nsresult rv = nsSVGGlyphFrameBase::IsSelectable(aIsSelectable, aSelectStyle); #if defined(DEBUG) && defined(SVG_DEBUG_SELECTION) printf("nsSVGGlyphFrame(%p)::IsSelectable()=(%d,%d)\n", this, *aIsSelectable, aSelectStyle); #endif return rv; } NS_IMETHODIMP nsSVGGlyphFrame::Init(nsIContent* aContent, nsIFrame* aParent, nsIFrame* aPrevInFlow) { #ifdef DEBUG NS_ASSERTION(aParent, "null parent"); nsIFrame* ancestorFrame = nsSVGUtils::GetFirstNonAAncestorFrame(aParent); NS_ASSERTION(ancestorFrame, "Must have ancestor"); nsSVGTextContainerFrame *metrics = do_QueryFrame(ancestorFrame); NS_ASSERTION(metrics, "trying to construct an SVGGlyphFrame for an invalid container"); NS_ASSERTION(aContent->IsNodeOfType(nsINode::eTEXT), "trying to construct an SVGGlyphFrame for wrong content element"); #endif /* DEBUG */ return nsSVGGlyphFrameBase::Init(aContent, aParent, aPrevInFlow); } nsIAtom * nsSVGGlyphFrame::GetType() const { return nsGkAtoms::svgGlyphFrame; } void nsSVGGlyphFrame::BuildDisplayList(nsDisplayListBuilder* aBuilder, const nsRect& aDirtyRect, const nsDisplayListSet& aLists) { if (StyleFont()->mFont.size <= 0) { return; } aLists.Content()->AppendNewToTop( new (aBuilder) nsDisplaySVGGlyphs(aBuilder, this)); } //---------------------------------------------------------------------- // nsISVGChildFrame methods NS_IMETHODIMP nsSVGGlyphFrame::PaintSVG(nsRenderingContext *aContext, const nsIntRect *aDirtyRect) { if (!StyleVisibility()->IsVisible()) return NS_OK; if (StyleFont()->mFont.size <= 0) { // Don't even try to paint, or cairo will go into an error state. return NS_OK; } AutoCanvasTMForMarker autoCanvasTMFor(this, FOR_PAINTING); gfxContext *gfx = aContext->ThebesContext(); uint16_t renderMode = SVGAutoRenderState::GetRenderMode(aContext); switch (StyleSVG()->mTextRendering) { case NS_STYLE_TEXT_RENDERING_OPTIMIZESPEED: gfx->SetAntialiasMode(gfxContext::MODE_ALIASED); break; default: gfx->SetAntialiasMode(gfxContext::MODE_COVERAGE); break; } if (renderMode != SVGAutoRenderState::NORMAL) { NS_ABORT_IF_FALSE(renderMode == SVGAutoRenderState::CLIP || renderMode == SVGAutoRenderState::CLIP_MASK, "Unknown render mode"); gfxContextMatrixAutoSaveRestore matrixAutoSaveRestore(gfx); SetupGlobalTransform(gfx, FOR_PAINTING); CharacterIterator iter(this, true); if (!iter.SetInitialMatrix(gfx)) { return NS_OK; } if (GetClipRule() == NS_STYLE_FILL_RULE_EVENODD) gfx->SetFillRule(gfxContext::FILL_RULE_EVEN_ODD); else gfx->SetFillRule(gfxContext::FILL_RULE_WINDING); if (renderMode == SVGAutoRenderState::CLIP_MASK) { gfx->SetColor(gfxRGBA(1.0f, 1.0f, 1.0f, 1.0f)); DrawCharacters(&iter, gfx, gfxFont::GLYPH_FILL); } else { DrawCharacters(&iter, gfx, gfxFont::GLYPH_PATH); } return NS_OK; } // We are adding patterns or gradients to the context. Save // it so we don't leak them into the next object we draw gfx->Save(); SetupGlobalTransform(gfx, FOR_PAINTING); CharacterIterator iter(this, true); if (!iter.SetInitialMatrix(gfx)) { gfx->Restore(); return NS_OK; } gfxTextObjectPaint *outerObjectPaint = (gfxTextObjectPaint*)aContext->GetUserData(&gfxTextObjectPaint::sUserDataKey); nsAutoPtr objectPaint; DrawMode drawMode = SetupCairoState(gfx, outerObjectPaint, getter_Transfers(objectPaint)); if (drawMode) { DrawCharacters(&iter, gfx, drawMode, objectPaint); } gfx->Restore(); return NS_OK; } NS_IMETHODIMP_(nsIFrame*) nsSVGGlyphFrame::GetFrameForPoint(const nsPoint &aPoint) { uint16_t hitTestFlags = GetHitTestFlags(); if (!hitTestFlags) { return nullptr; } AutoCanvasTMForMarker autoCanvasTMFor(this, FOR_HIT_TESTING); nsRefPtr tmpCtx = MakeTmpCtx(); SetupGlobalTransform(tmpCtx, FOR_HIT_TESTING); CharacterIterator iter(this, true); if (!iter.SetInitialMatrix(tmpCtx)) { return nullptr; } // The SVG 1.1 spec says that text is hit tested against the character cells // of the text, not the fill and stroke. See the section starting "For text // elements..." here: // // http://www.w3.org/TR/SVG11/interact.html#PointerEventsProperty // // Currently we just test the character cells if GetHitTestFlags says we're // supposed to be testing either the fill OR the stroke: uint32_t i; while ((i = iter.NextCluster()) != iter.InvalidCluster()) { gfxTextRun::Metrics metrics = mTextRun->MeasureText(i, iter.ClusterLength(), gfxFont::LOOSE_INK_EXTENTS, nullptr, nullptr); iter.SetupForMetrics(tmpCtx); tmpCtx->Rectangle(metrics.mBoundingBox); } gfxPoint userSpacePoint = tmpCtx->DeviceToUser(gfxPoint(PresContext()->AppUnitsToGfxUnits(aPoint.x), PresContext()->AppUnitsToGfxUnits(aPoint.y))); bool isHit = false; if (hitTestFlags & SVG_HIT_TEST_FILL || hitTestFlags & SVG_HIT_TEST_STROKE) { isHit = tmpCtx->PointInFill(userSpacePoint); } // If isHit is false, we may also want to fill and stroke the text to check // whether the pointer is over an area of fill or stroke that lies outside // the character cells. (With a thick stroke, or with fonts like Zapfino, such // areas may be very significant.) This is what Opera appears to do, but // currently we do not. if (isHit && nsSVGUtils::HitTestClip(this, aPoint)) return this; return nullptr; } NS_IMETHODIMP_(nsRect) nsSVGGlyphFrame::GetCoveredRegion() { return nsSVGUtils::TransformFrameRectToOuterSVG( mRect, GetCanvasTM(FOR_OUTERSVG_TM), PresContext()); } void nsSVGGlyphFrame::ReflowSVG() { NS_ASSERTION(nsSVGUtils::OuterSVGIsCallingReflowSVG(this), "This call is probably a wasteful mistake"); NS_ABORT_IF_FALSE(!(GetStateBits() & NS_STATE_SVG_NONDISPLAY_CHILD), "ReflowSVG mechanism not designed for this"); mRect.SetEmpty(); uint32_t flags = nsSVGUtils::eBBoxIncludeFill | nsSVGUtils::eBBoxIncludeStroke | nsSVGUtils::eBBoxIncludeMarkers; // Our "visual" overflow rect needs to be valid for building display lists // for hit testing, which means that for certain values of 'pointer-events' // it needs to include the geometry of the fill or stroke even when the fill/ // stroke don't actually render (e.g. when stroke="none" or // stroke-opacity="0"). GetHitTestFlags() accounts for 'pointer-events'. uint16_t hitTestFlags = GetHitTestFlags(); if ((hitTestFlags & SVG_HIT_TEST_FILL)) { flags |= nsSVGUtils::eBBoxIncludeFillGeometry; } if ((hitTestFlags & SVG_HIT_TEST_STROKE)) { flags |= nsSVGUtils::eBBoxIncludeStrokeGeometry; } gfxRect extent = GetBBoxContribution(gfxMatrix(), flags); if (!extent.IsEmpty()) { mRect = nsLayoutUtils::RoundGfxRectToAppRect(extent, PresContext()->AppUnitsPerCSSPixel()); } nsRect overflow = nsRect(nsPoint(0,0), mRect.Size()); nsOverflowAreas overflowAreas(overflow, overflow); FinishAndStoreOverflow(overflowAreas, mRect.Size()); mState &= ~(NS_FRAME_FIRST_REFLOW | NS_FRAME_IS_DIRTY | NS_FRAME_HAS_DIRTY_CHILDREN); // Invalidate, but only if this is not our first reflow (since if it is our // first reflow then we haven't had our first paint yet). if (!(GetParent()->GetStateBits() & NS_FRAME_FIRST_REFLOW)) { InvalidateFrame(); } } void nsSVGGlyphFrame::NotifySVGChanged(uint32_t aFlags) { NS_ABORT_IF_FALSE(aFlags & (TRANSFORM_CHANGED | COORD_CONTEXT_CHANGED), "Invalidation logic may need adjusting"); // Ancestor changes can't affect how we render from the perspective of // any rendering observers that we may have, so we don't need to // invalidate them. We also don't need to invalidate ourself, since our // changed ancestor will have invalidated its entire area, which includes // our area. // XXXjwatt: seems to me that our ancestor's change could change our glyph // metrics, in which case we should call NotifyGlyphMetricsChange instead. nsSVGUtils::ScheduleReflowSVG(this); if (aFlags & TRANSFORM_CHANGED) { ClearTextRun(); } } void nsSVGGlyphFrame::AddBoundingBoxesToPath(CharacterIterator *aIter, gfxContext *aContext) { if (aIter->SetupForDirectTextRunMetrics(aContext)) { gfxTextRun::Metrics metrics = mTextRun->MeasureText(0, mTextRun->GetLength(), gfxFont::LOOSE_INK_EXTENTS, nullptr, nullptr); aContext->Rectangle(metrics.mBoundingBox); return; } uint32_t i; while ((i = aIter->NextCluster()) != aIter->InvalidCluster()) { aIter->SetupForMetrics(aContext); gfxTextRun::Metrics metrics = mTextRun->MeasureText(i, aIter->ClusterLength(), gfxFont::LOOSE_INK_EXTENTS, nullptr, nullptr); aContext->Rectangle(metrics.mBoundingBox); } } void nsSVGGlyphFrame::DrawCharacters(CharacterIterator *aIter, gfxContext *aContext, DrawMode aDrawMode, gfxTextObjectPaint *aObjectPaint) { if (aDrawMode & gfxFont::GLYPH_STROKE) { aIter->SetLineWidthAndDashesForDrawing(aContext); } if (aIter->SetupForDirectTextRunDrawing(aContext)) { mTextRun->Draw(aContext, gfxPoint(0, 0), aDrawMode, 0, mTextRun->GetLength(), nullptr, nullptr, aObjectPaint); return; } uint32_t i; while ((i = aIter->NextCluster()) != aIter->InvalidCluster()) { aIter->SetupForDrawing(aContext); mTextRun->Draw(aContext, gfxPoint(0, 0), aDrawMode, i, aIter->ClusterLength(), nullptr, nullptr, aObjectPaint); } } SVGBBox nsSVGGlyphFrame::GetBBoxContribution(const gfxMatrix &aToBBoxUserspace, uint32_t aFlags) { SVGBBox bbox; if (mOverrideCanvasTM) { *mOverrideCanvasTM = aToBBoxUserspace; } else { mOverrideCanvasTM = new gfxMatrix(aToBBoxUserspace); } nsRefPtr tmpCtx = MakeTmpCtx(); SetupGlobalTransform(tmpCtx, FOR_OUTERSVG_TM); CharacterIterator iter(this, true); if (!iter.SetInitialMatrix(tmpCtx)) { return bbox; } AddBoundingBoxesToPath(&iter, tmpCtx); tmpCtx->IdentityMatrix(); mOverrideCanvasTM = nullptr; // Be careful when replacing the following logic to get the fill and stroke // extents independently (instead of computing the stroke extents from the // path extents). You may think that you can just use the stroke extents if // there is both a fill and a stroke. In reality it's necessary to calculate // both the fill and stroke extents, and take the union of the two. There are // two reasons for this: // // # Due to stroke dashing, in certain cases the fill extents could actually // extend outside the stroke extents. // # If the stroke is very thin, cairo won't paint any stroke, and so the // stroke bounds that it will return will be empty. // // Another thing to be aware of is that under AddBoundingBoxesToPath the // gfxContext has SetLineWidth() called on it, so if we want to ask the // gfxContext for *stroke* extents, we'll need to wrap the // AddBoundingBoxesToPath() call with CurrentLineWidth()/SetLineWidth() // calls to record and then reset the stroke width. gfxRect pathExtents = tmpCtx->GetUserPathExtent(); // Account for fill: if ((aFlags & nsSVGUtils::eBBoxIncludeFillGeometry) || ((aFlags & nsSVGUtils::eBBoxIncludeFill) && StyleSVG()->mFill.mType != eStyleSVGPaintType_None)) { bbox = pathExtents; } // Account for stroke: if ((aFlags & nsSVGUtils::eBBoxIncludeStrokeGeometry) || ((aFlags & nsSVGUtils::eBBoxIncludeStroke) && nsSVGUtils::HasStroke(this))) { bbox.UnionEdges(nsSVGUtils::PathExtentsToMaxStrokeExtents(pathExtents, this, aToBBoxUserspace)); } return bbox; } //---------------------------------------------------------------------- // nsSVGGeometryFrame methods: gfxMatrix nsSVGGlyphFrame::GetCanvasTM(uint32_t aFor) { if (mOverrideCanvasTM) { return *mOverrideCanvasTM; } if (!(GetStateBits() & NS_STATE_SVG_NONDISPLAY_CHILD)) { if ((aFor == FOR_PAINTING && NS_SVGDisplayListPaintingEnabled()) || (aFor == FOR_HIT_TESTING && NS_SVGDisplayListHitTestingEnabled())) { return nsSVGIntegrationUtils::GetCSSPxToDevPxMatrix(this); } } NS_ASSERTION(mParent, "null parent"); return static_cast(mParent)->GetCanvasTM(aFor); } //---------------------------------------------------------------------- // nsSVGGlyphFrame methods: bool nsSVGGlyphFrame::GetCharacterData(nsAString & aCharacterData) { nsAutoString characterData; mContent->AppendTextTo(characterData); if (mCompressWhitespace) { characterData.CompressWhitespace(mTrimLeadingWhitespace, mTrimTrailingWhitespace); } else { nsAString::iterator start, end; characterData.BeginWriting(start); characterData.EndWriting(end); while (start != end) { if (NS_IsAsciiWhitespace(*start)) *start = ' '; ++start; } } aCharacterData = characterData; return !characterData.IsEmpty(); } bool nsSVGGlyphFrame::GetCharacterPositions(nsTArray* aCharacterPositions, float aMetricsScale) { uint32_t strLength = mTextRun->GetLength(); NS_ABORT_IF_FALSE(strLength > 0, "no text"); const gfxFloat radPerDeg = M_PI / 180.0; nsTArray xList, yList; GetEffectiveXY(strLength, xList, yList); nsTArray dxList, dyList; GetEffectiveDxDy(strLength, dxList, dyList); nsTArray rotateList; GetEffectiveRotate(strLength, rotateList); gfxPoint pos = mPosition; gfxFloat angle = 0.0; nsSVGTextPathFrame *textPath = FindTextPathParent(); if (textPath) { nsRefPtr data = textPath->GetFlattenedPath(); // textPath frame, but invalid target if (!data) return false; if (!aCharacterPositions->SetLength(strLength)) return false; gfxFloat pathScale = textPath->GetOffsetScale(); CharacterPosition *cp = aCharacterPositions->Elements(); gfxFloat length = data->GetLength(); for (uint32_t i = 0; i < strLength; i++) { gfxFloat halfAdvance = mTextRun->GetAdvanceWidth(i, 1, nullptr)*aMetricsScale / 2.0; // use only x position for horizontal writing if (i > 0 && i < xList.Length()) { pos.x = xList[i]; } pos.x += (i > 0 && i < dxList.Length()) ? dxList[i] * pathScale : 0.0; pos.y += (i > 0 && i < dyList.Length()) ? dyList[i] * pathScale : 0.0; if (i < rotateList.Length()) { angle = rotateList[i] * radPerDeg; } // check that we're within the path boundaries cp[i].draw = (pos.x + halfAdvance >= 0.0 && pos.x + halfAdvance <= length); if (cp[i].draw) { // add y (normal) // add rotation // move point back along tangent gfxPoint pt = data->FindPoint(gfxPoint(pos.x + halfAdvance, pos.y), &(cp[i].angle)); cp[i].pos = pt - gfxPoint(cos(cp[i].angle), sin(cp[i].angle)) * halfAdvance; cp[i].angle += angle; } pos.x += 2 * halfAdvance; } return true; } if (xList.Length() <= 1 && yList.Length() <= 1 && dxList.Length() <= 1 && dyList.Length() <= 1 && rotateList.IsEmpty()) { // simple text without individual positioning return true; } if (!aCharacterPositions->SetLength(strLength)) return false; CharacterPosition *cp = aCharacterPositions->Elements(); uint16_t anchor = GetTextAnchor(); for (uint32_t i = 0; i < strLength; i++) { cp[i].draw = true; gfxFloat advance = mTextRun->GetAdvanceWidth(i, 1, nullptr)*aMetricsScale; if (xList.Length() > 1 && i < xList.Length()) { pos.x = xList[i]; // apply text-anchor to character if (anchor == NS_STYLE_TEXT_ANCHOR_MIDDLE) pos.x -= advance/2.0; else if (anchor == NS_STYLE_TEXT_ANCHOR_END) pos.x -= advance; } if (yList.Length() > 1 && i < yList.Length()) { pos.y = yList[i]; } pos.x += (i > 0 && i < dxList.Length()) ? dxList[i] : 0.0; pos.y += (i > 0 && i < dyList.Length()) ? dyList[i] : 0.0; cp[i].pos = pos; pos.x += advance; if (i < rotateList.Length()) { angle = rotateList[i] * radPerDeg; } cp[i].angle = angle; } return true; } uint32_t nsSVGGlyphFrame::GetTextRunFlags(uint32_t strLength) { // Keep the logic here consistent with GetCharacterPositions if (FindTextPathParent()) { return gfxTextRunFactory::TEXT_DISABLE_OPTIONAL_LIGATURES; } nsTArray xList, yList; GetEffectiveXY(strLength, xList, yList); nsTArray dxList, dyList; GetEffectiveDxDy(strLength, dxList, dyList); nsTArray rotateList; GetEffectiveRotate(strLength, rotateList); return (xList.Length() > 1 || yList.Length() > 1 || dxList.Length() > 1 || dyList.Length() > 1 || !rotateList.IsEmpty()) ? gfxTextRunFactory::TEXT_DISABLE_OPTIONAL_LIGATURES : 0; } float nsSVGGlyphFrame::GetSubStringAdvance(uint32_t aCharnum, uint32_t aFragmentChars, float aMetricsScale) { if (aFragmentChars == 0) return 0.0f; gfxFloat advance = mTextRun->GetAdvanceWidth(aCharnum, aFragmentChars, nullptr) * aMetricsScale; nsTArray dxlist, notUsed; GetEffectiveDxDy(mTextRun->GetLength(), dxlist, notUsed); uint32_t dxcount = dxlist.Length(); if (dxcount) { gfxFloat pathScale = 1.0; nsSVGTextPathFrame *textPath = FindTextPathParent(); if (textPath) pathScale = textPath->GetOffsetScale(); if (dxcount > aFragmentChars) dxcount = aFragmentChars; for (uint32_t i = aCharnum; i < dxcount; i++) { advance += dxlist[i] * pathScale; } } return float(advance); } gfxFloat nsSVGGlyphFrame::GetBaselineOffset(float aMetricsScale) { gfxTextRun::Metrics metrics = mTextRun->MeasureText(0, mTextRun->GetLength(), gfxFont::LOOSE_INK_EXTENTS, nullptr, nullptr); uint16_t dominantBaseline; for (nsIFrame *frame = GetParent(); frame; frame = frame->GetParent()) { dominantBaseline = frame->StyleSVGReset()->mDominantBaseline; if (dominantBaseline != NS_STYLE_DOMINANT_BASELINE_AUTO || frame->GetType() == nsGkAtoms::svgTextFrame) { break; } } gfxFloat baselineAppUnits; switch (dominantBaseline) { case NS_STYLE_DOMINANT_BASELINE_HANGING: // not really right, but the best we can do with the information provided // FALLTHROUGH case NS_STYLE_DOMINANT_BASELINE_TEXT_BEFORE_EDGE: baselineAppUnits = -metrics.mAscent; break; case NS_STYLE_DOMINANT_BASELINE_TEXT_AFTER_EDGE: case NS_STYLE_DOMINANT_BASELINE_IDEOGRAPHIC: baselineAppUnits = metrics.mDescent; break; case NS_STYLE_DOMINANT_BASELINE_CENTRAL: case NS_STYLE_DOMINANT_BASELINE_MIDDLE: baselineAppUnits = -(metrics.mAscent - metrics.mDescent) / 2.0; break; case NS_STYLE_DOMINANT_BASELINE_AUTO: case NS_STYLE_DOMINANT_BASELINE_ALPHABETIC: return 0.0; default: NS_WARNING("We don't know about this type of dominant-baseline"); return 0.0; } return baselineAppUnits * aMetricsScale; } DrawMode nsSVGGlyphFrame::SetupCairoState(gfxContext *aContext, gfxTextObjectPaint *aOuterObjectPaint, gfxTextObjectPaint **aThisObjectPaint) { DrawMode toDraw = DrawMode(0); SVGTextObjectPaint *thisObjectPaint = new SVGTextObjectPaint(); if (SetupCairoStroke(aContext, aOuterObjectPaint, thisObjectPaint)) { toDraw = DrawMode(toDraw | gfxFont::GLYPH_STROKE); } if (SetupCairoFill(aContext, aOuterObjectPaint, thisObjectPaint)) { toDraw = DrawMode(toDraw | gfxFont::GLYPH_FILL); } uint32_t paintOrder = StyleSVG()->mPaintOrder; while (paintOrder) { uint32_t component = paintOrder & ((1 << NS_STYLE_PAINT_ORDER_BITWIDTH) - 1); if (component == NS_STYLE_PAINT_ORDER_FILL) { break; } if (component == NS_STYLE_PAINT_ORDER_STROKE) { toDraw = DrawMode(toDraw | gfxFont::GLYPH_STROKE_UNDERNEATH); break; } paintOrder >>= NS_STYLE_PAINT_ORDER_BITWIDTH; } *aThisObjectPaint = thisObjectPaint; return toDraw; } bool nsSVGGlyphFrame::SetupCairoStroke(gfxContext *aContext, gfxTextObjectPaint *aOuterObjectPaint, SVGTextObjectPaint *aThisObjectPaint) { if (!nsSVGUtils::HasStroke(this, aOuterObjectPaint)) { return false; } const nsStyleSVG *style = StyleSVG(); nsSVGUtils::SetupCairoStrokeHitGeometry(this, aContext, aOuterObjectPaint); float opacity = nsSVGUtils::GetOpacity(style->mStrokeOpacitySource, style->mStrokeOpacity, aOuterObjectPaint); SetupInheritablePaint(aContext, opacity, aOuterObjectPaint, aThisObjectPaint->mStrokePaint, &nsStyleSVG::mStroke, nsSVGEffects::StrokeProperty()); aThisObjectPaint->SetStrokeOpacity(opacity); return opacity != 0.0f; } bool nsSVGGlyphFrame::SetupCairoFill(gfxContext *aContext, gfxTextObjectPaint *aOuterObjectPaint, SVGTextObjectPaint *aThisObjectPaint) { const nsStyleSVG *style = StyleSVG(); if (style->mFill.mType == eStyleSVGPaintType_None) { aThisObjectPaint->SetFillOpacity(0.0f); return false; } float opacity = nsSVGUtils::GetOpacity(style->mFillOpacitySource, style->mFillOpacity, aOuterObjectPaint); SetupInheritablePaint(aContext, opacity, aOuterObjectPaint, aThisObjectPaint->mFillPaint, &nsStyleSVG::mFill, nsSVGEffects::FillProperty()); aThisObjectPaint->SetFillOpacity(opacity); return true; } void nsSVGGlyphFrame::SetupInheritablePaint(gfxContext *aContext, float& aOpacity, gfxTextObjectPaint *aOuterObjectPaint, SVGTextObjectPaint::Paint& aTargetPaint, nsStyleSVGPaint nsStyleSVG::*aFillOrStroke, const FramePropertyDescriptor *aProperty) { const nsStyleSVG *style = StyleSVG(); nsSVGPaintServerFrame *ps = nsSVGEffects::GetPaintServer(this, &(style->*aFillOrStroke), aProperty); if (ps && ps->SetupPaintServer(aContext, this, aFillOrStroke, aOpacity)) { aTargetPaint.SetPaintServer(this, aContext->CurrentMatrix(), ps); } else if (SetupObjectPaint(aContext, aFillOrStroke, aOpacity, aOuterObjectPaint)) { aTargetPaint.SetObjectPaint(aOuterObjectPaint, (style->*aFillOrStroke).mType); } else { nscolor color = nsSVGUtils::GetFallbackOrPaintColor(aContext, StyleContext(), aFillOrStroke); aTargetPaint.SetColor(color); nsRefPtr pattern = new gfxPattern(gfxRGBA(NS_GET_R(color) / 255.0, NS_GET_G(color) / 255.0, NS_GET_B(color) / 255.0, NS_GET_A(color) / 255.0 * aOpacity)); aContext->SetPattern(pattern); } } bool nsSVGGlyphFrame::SetupObjectPaint(gfxContext *aContext, nsStyleSVGPaint nsStyleSVG::*aFillOrStroke, float& aOpacity, gfxTextObjectPaint *aOuterObjectPaint) { if (!aOuterObjectPaint) { NS_WARNING("Outer object paint value used outside SVG glyph"); return false; } const nsStyleSVG *style = StyleSVG(); const nsStyleSVGPaint &paint = style->*aFillOrStroke; if (paint.mType != eStyleSVGPaintType_ObjectFill && paint.mType != eStyleSVGPaintType_ObjectStroke) { return false; } gfxMatrix current = aContext->CurrentMatrix(); nsRefPtr pattern = paint.mType == eStyleSVGPaintType_ObjectFill ? aOuterObjectPaint->GetFillPattern(aOpacity, current) : aOuterObjectPaint->GetStrokePattern(aOpacity, current); if (!pattern) { return false; } aContext->SetPattern(pattern); return true; } //---------------------------------------------------------------------- // SVGTextObjectPaint methods: already_AddRefed mozilla::SVGTextObjectPaint::GetFillPattern(float aOpacity, const gfxMatrix& aCTM) { return mFillPaint.GetPattern(aOpacity, &nsStyleSVG::mFill, aCTM); } already_AddRefed mozilla::SVGTextObjectPaint::GetStrokePattern(float aOpacity, const gfxMatrix& aCTM) { return mStrokePaint.GetPattern(aOpacity, &nsStyleSVG::mStroke, aCTM); } already_AddRefed mozilla::SVGTextObjectPaint::Paint::GetPattern(float aOpacity, nsStyleSVGPaint nsStyleSVG::*aFillOrStroke, const gfxMatrix& aCTM) { nsRefPtr pattern; if (mPatternCache.Get(aOpacity, getter_AddRefs(pattern))) { // Set the pattern matrix just in case it was messed with by a previous // caller. We should get the same matrix each time a pattern is constructed // so this should be fine. pattern->SetMatrix(aCTM * mPatternMatrix); return pattern.forget(); } switch (mPaintType) { case eStyleSVGPaintType_None: pattern = new gfxPattern(gfxRGBA(0.0f, 0.0f, 0.0f, 0.0f)); mPatternMatrix = gfxMatrix(); break; case eStyleSVGPaintType_Color: pattern = new gfxPattern(gfxRGBA(NS_GET_R(mPaintDefinition.mColor) / 255.0, NS_GET_G(mPaintDefinition.mColor) / 255.0, NS_GET_B(mPaintDefinition.mColor) / 255.0, NS_GET_A(mPaintDefinition.mColor) / 255.0 * aOpacity)); mPatternMatrix = gfxMatrix(); break; case eStyleSVGPaintType_Server: pattern = mPaintDefinition.mPaintServerFrame->GetPaintServerPattern(mFrame, mContextMatrix, aFillOrStroke, aOpacity); { // m maps original-user-space to pattern space gfxMatrix m = pattern->GetMatrix(); gfxMatrix deviceToOriginalUserSpace = mContextMatrix; deviceToOriginalUserSpace.Invert(); // mPatternMatrix maps device space to pattern space via original user space mPatternMatrix = deviceToOriginalUserSpace * m; } pattern->SetMatrix(aCTM * mPatternMatrix); break; case eStyleSVGPaintType_ObjectFill: pattern = mPaintDefinition.mObjectPaint->GetFillPattern(aOpacity, aCTM); // Don't cache this. mObjectPaint will have cached it anyway. If we // cache it, we'll have to compute mPatternMatrix, which is annoying. return pattern.forget(); case eStyleSVGPaintType_ObjectStroke: pattern = mPaintDefinition.mObjectPaint->GetStrokePattern(aOpacity, aCTM); // Don't cache this. mObjectPaint will have cached it anyway. If we // cache it, we'll have to compute mPatternMatrix, which is annoying. return pattern.forget(); default: return nullptr; } mPatternCache.Put(aOpacity, pattern); return pattern.forget(); } //---------------------------------------------------------------------- // Utilities for converting from indices in the uncompressed content // element strings to compressed frame string and back: static int CompressIndex(int index, const nsTextFragment*fragment) { int ci=0; if (fragment->Is2b()) { const PRUnichar *data=fragment->Get2b(); while(*data && index) { if (dom::IsSpaceCharacter(*data)){ do { ++data; --index; }while(dom::IsSpaceCharacter(*data) && index); } else { ++data; --index; } ++ci; } } else { const char *data=fragment->Get1b(); while(*data && index) { if (dom::IsSpaceCharacter(*data)){ do { ++data; --index; }while(dom::IsSpaceCharacter(*data) && index); } else { ++data; --index; } ++ci; } } return ci; } nsresult nsSVGGlyphFrame::GetHighlight(uint32_t *charnum, uint32_t *nchars, nscolor *foreground, nscolor *background) { *foreground = NS_RGB(255,255,255); *background = NS_RGB(0,0,0); *charnum=0; *nchars=0; bool hasHighlight = IsSelected(); if (!hasHighlight) { NS_ERROR("nsSVGGlyphFrame::GetHighlight() called by renderer when there is no highlight"); return NS_ERROR_FAILURE; } nsPresContext *presContext = PresContext(); // The selection ranges are relative to the uncompressed text in // the content element. We'll need the text fragment: const nsTextFragment *fragment = mContent->GetText(); NS_ASSERTION(fragment, "no text"); // get the selection details SelectionDetails *details = nullptr; { nsRefPtr frameSelection = presContext->PresShell()->FrameSelection(); if (!frameSelection) { NS_ERROR("no frameselection interface"); return NS_ERROR_FAILURE; } details = frameSelection->LookUpSelection( mContent, 0, fragment->GetLength(), false ); } #if defined(DEBUG) && defined(SVG_DEBUG_SELECTION) { SelectionDetails *dp = details; printf("nsSVGGlyphFrame(%p)::GetHighlight() [\n", this); while (dp) { printf("selection detail: %d(%d)->%d(%d) type %d\n", dp->mStart, CompressIndex(dp->mStart, fragment), dp->mEnd, CompressIndex(dp->mEnd, fragment), dp->mType); dp = dp->mNext; } printf("]\n"); } #endif if (details) { NS_ASSERTION(details->mNext==nullptr, "can't do multiple selection ranges"); *charnum=CompressIndex(details->mStart, fragment); *nchars=CompressIndex(details->mEnd, fragment)-*charnum; LookAndFeel::GetColor(LookAndFeel::eColorID_TextSelectBackground, background); LookAndFeel::GetColor(LookAndFeel::eColorID_TextSelectForeground, foreground); SelectionDetails *dp = details; while ((dp=details->mNext) != nullptr) { delete details; details = dp; } delete details; } return NS_OK; } //---------------------------------------------------------------------- // Internal methods void nsSVGGlyphFrame::SetGlyphPosition(gfxPoint *aPosition, bool aForceGlobalTransform) { float drawScale, metricsScale; nsSVGTextPathFrame *textPath = FindTextPathParent(); // In a textPath, the 'y' attribute has no effect, so we reset 'y' here // to use aPosition.y for dy only if (textPath && textPath->GetFirstPrincipalChild() == this) { aPosition->y = 0.0; } if (!EnsureTextRun(&drawScale, &metricsScale, aForceGlobalTransform)) return; mPosition.MoveTo(aPosition->x, aPosition->y - GetBaselineOffset(metricsScale)); uint32_t strLength = mTextRun->GetLength(); nsTArray xList, yList; GetEffectiveXY(strLength, xList, yList); uint32_t xCount = std::min(xList.Length(), strLength); uint32_t yCount = std::min(yList.Length(), strLength); // move aPosition to the last glyph position gfxFloat x = aPosition->x; if (xCount > 1) { x = xList[xCount - 1]; x += mTextRun->GetAdvanceWidth(xCount - 1, 1, nullptr) * metricsScale; // advance to the last glyph if (strLength > xCount) { x += mTextRun->GetAdvanceWidth(xCount, strLength - xCount, nullptr) * metricsScale; } } else { x += mTextRun->GetAdvanceWidth(0, strLength, nullptr) * metricsScale; } gfxFloat y = (textPath || yCount <= 1) ? aPosition->y : yList[yCount - 1]; aPosition->MoveTo(x, y); gfxFloat pathScale = 1.0; if (textPath) pathScale = textPath->GetOffsetScale(); nsTArray dxList, dyList; GetEffectiveDxDy(strLength, dxList, dyList); uint32_t dxcount = std::min(dxList.Length(), strLength); if (dxcount > 0) { mPosition.x += dxList[0] * pathScale; } for (uint32_t i = 0; i < dxcount; i++) { aPosition->x += dxList[i] * pathScale; } uint32_t dycount = std::min(dyList.Length(), strLength); if (dycount > 0) { mPosition.y += dyList[0]* pathScale; } for (uint32_t i = 0; i < dycount; i++) { aPosition->y += dyList[i] * pathScale; } } nsresult nsSVGGlyphFrame::GetStartPositionOfChar(uint32_t charnum, nsISupports **_retval) { *_retval = nullptr; CharacterIterator iter(this, false); if (!iter.AdvanceToCharacter(charnum)) return NS_ERROR_DOM_INDEX_SIZE_ERR; NS_ADDREF(*_retval = new DOMSVGPoint(iter.GetPositionData().pos)); return NS_OK; } nsresult nsSVGGlyphFrame::GetEndPositionOfChar(uint32_t charnum, nsISupports **_retval) { *_retval = nullptr; CharacterIterator iter(this, false); if (!iter.AdvanceToCharacter(charnum)) return NS_ERROR_DOM_INDEX_SIZE_ERR; nsRefPtr tmpCtx = MakeTmpCtx(); iter.SetupForMetrics(tmpCtx); tmpCtx->MoveTo(gfxPoint(mTextRun->GetAdvanceWidth(charnum, 1, nullptr), 0)); tmpCtx->IdentityMatrix(); NS_ADDREF(*_retval = new DOMSVGPoint(tmpCtx->CurrentPoint())); return NS_OK; } nsresult nsSVGGlyphFrame::GetExtentOfChar(uint32_t charnum, nsIDOMSVGRect **_retval) { *_retval = nullptr; CharacterIterator iter(this, false); if (!iter.AdvanceToCharacter(0)) return NS_ERROR_DOM_INDEX_SIZE_ERR; uint32_t start = charnum, limit = charnum + 1; while (start > 0 && !mTextRun->IsClusterStart(start)) { --start; } while (limit < mTextRun->GetLength() && !mTextRun->IsClusterStart(limit)) { ++limit; } if (start > 0 && !iter.AdvanceToCharacter(start)) return NS_ERROR_DOM_INDEX_SIZE_ERR; gfxTextRun::Metrics metrics = mTextRun->MeasureText(start, limit - start, gfxFont::LOOSE_INK_EXTENTS, nullptr, nullptr); nsRefPtr tmpCtx = MakeTmpCtx(); iter.SetupForMetrics(tmpCtx); tmpCtx->Rectangle(gfxRect(0, -metrics.mAscent, metrics.mAdvanceWidth, metrics.mAscent + metrics.mDescent)); tmpCtx->IdentityMatrix(); return NS_NewSVGRect(_retval, tmpCtx->GetUserPathExtent()); } nsresult nsSVGGlyphFrame::GetRotationOfChar(uint32_t charnum, float *_retval) { CharacterIterator iter(this, false); if (!iter.AdvanceToCharacter(charnum)) return NS_ERROR_DOM_INDEX_SIZE_ERR; CharacterPosition pos = iter.GetPositionData(); if (!pos.draw) return NS_ERROR_DOM_INDEX_SIZE_ERR; const gfxFloat radPerDeg = M_PI/180.0; *_retval = float(pos.angle / radPerDeg); return NS_OK; } float nsSVGGlyphFrame::GetAdvance(bool aForceGlobalTransform) { float drawScale, metricsScale; if (!EnsureTextRun(&drawScale, &metricsScale, aForceGlobalTransform)) return 0.0f; return GetSubStringAdvance(0, mTextRun->GetLength(), metricsScale); } nsSVGTextPathFrame* nsSVGGlyphFrame::FindTextPathParent() { /* check if we're the child of a textPath */ for (nsIFrame *frame = GetParent(); frame != nullptr; frame = frame->GetParent()) { nsIAtom* type = frame->GetType(); if (type == nsGkAtoms::svgTextPathFrame) { return static_cast(frame); } else if (type == nsGkAtoms::svgTextFrame) return nullptr; } return nullptr; } bool nsSVGGlyphFrame::IsStartOfChunk() { // this fragment is a chunk if it has a corresponding absolute // position adjustment in an ancestors' x or y array. (At the moment // we don't map the full arrays, but only the first elements.) return false; } void nsSVGGlyphFrame::GetXY(SVGUserUnitList *aX, SVGUserUnitList *aY) { static_cast(mParent)->GetXY(aX, aY); } void nsSVGGlyphFrame::SetStartIndex(uint32_t aStartIndex) { mStartIndex = aStartIndex; } void nsSVGGlyphFrame::GetEffectiveXY(int32_t strLength, nsTArray &aX, nsTArray &aY) { nsTArray x, y; static_cast(mParent)->GetEffectiveXY(x, y); int32_t xCount = std::max((int32_t)(x.Length() - mStartIndex), 0); xCount = std::min(xCount, strLength); aX.AppendElements(x.Elements() + mStartIndex, xCount); int32_t yCount = std::max((int32_t)(y.Length() - mStartIndex), 0); yCount = std::min(yCount, strLength); aY.AppendElements(y.Elements() + mStartIndex, yCount); } void nsSVGGlyphFrame::GetDxDy(SVGUserUnitList *aDx, SVGUserUnitList *aDy) { static_cast(mParent)->GetDxDy(aDx, aDy); } void nsSVGGlyphFrame::GetEffectiveDxDy(int32_t strLength, nsTArray &aDx, nsTArray &aDy) { nsTArray dx, dy; static_cast(mParent)->GetEffectiveDxDy(dx, dy); int32_t dxCount = std::max((int32_t)(dx.Length() - mStartIndex), 0); dxCount = std::min(dxCount, strLength); aDx.AppendElements(dx.Elements() + mStartIndex, dxCount); int32_t dyCount = std::max((int32_t)(dy.Length() - mStartIndex), 0); dyCount = std::min(dyCount, strLength); aDy.AppendElements(dy.Elements() + mStartIndex, dyCount); } const SVGNumberList* nsSVGGlyphFrame::GetRotate() { nsSVGTextContainerFrame *containerFrame; containerFrame = static_cast(mParent); if (containerFrame) return containerFrame->GetRotate(); return nullptr; } void nsSVGGlyphFrame::GetEffectiveRotate(int32_t strLength, nsTArray &aRotate) { nsTArray rotate; static_cast(mParent)->GetEffectiveRotate(rotate); int32_t rotateCount = std::max((int32_t)(rotate.Length() - mStartIndex), 0); rotateCount = std::min(rotateCount, strLength); if (rotateCount > 0) { aRotate.AppendElements(rotate.Elements() + mStartIndex, rotateCount); } else if (!rotate.IsEmpty()) { // rotate is applied for extra characters too aRotate.AppendElement(rotate[rotate.Length() - 1]); } } uint16_t nsSVGGlyphFrame::GetTextAnchor() { return StyleSVG()->mTextAnchor; } bool nsSVGGlyphFrame::IsAbsolutelyPositioned() { bool hasTextPathAncestor = false; for (nsIFrame *frame = GetParent(); frame != nullptr; frame = frame->GetParent()) { // at the start of a 'text' element // at the start of each 'textPath' element if (frame->GetType() == nsGkAtoms::svgTextPathFrame) { hasTextPathAncestor = true; } if ((frame->GetType() == nsGkAtoms::svgTextFrame || frame->GetType() == nsGkAtoms::svgTextPathFrame) && frame->GetFirstPrincipalChild() == this) { return true; } if (frame->GetType() == nsGkAtoms::svgTextFrame) break; } // for each character within a 'text', 'tspan', 'tref' and 'altGlyph' element // which has an x or y attribute value assigned to it explicitly nsTArray x, y; GetEffectiveXY(GetNumberOfChars(), x, y); // Note: the y of descendants of textPath has no effect in horizontal writing return (!x.IsEmpty() || (!hasTextPathAncestor && !y.IsEmpty())); } //---------------------------------------------------------------------- // nsISVGGlyphFragmentNode interface: uint32_t nsSVGGlyphFrame::GetNumberOfChars() { if (mCompressWhitespace) { nsAutoString text; GetCharacterData(text); return text.Length(); } return mContent->TextLength(); } float nsSVGGlyphFrame::GetComputedTextLength() { return GetAdvance(false); } float nsSVGGlyphFrame::GetSubStringLength(uint32_t charnum, uint32_t fragmentChars) { float drawScale, metricsScale; if (!EnsureTextRun(&drawScale, &metricsScale, false)) return 0.0f; return GetSubStringAdvance(charnum, fragmentChars, metricsScale); } int32_t nsSVGGlyphFrame::GetCharNumAtPosition(nsISVGPoint *point) { float xPos = point->X(), yPos = point->Y(); nsRefPtr tmpCtx = MakeTmpCtx(); CharacterIterator iter(this, false); uint32_t i; int32_t last = -1; gfxPoint pt(xPos, yPos); while ((i = iter.NextCluster()) != iter.InvalidCluster()) { uint32_t limit = i + iter.ClusterLength(); gfxTextRun::Metrics metrics = mTextRun->MeasureText(i, limit - i, gfxFont::LOOSE_INK_EXTENTS, nullptr, nullptr); // the SVG spec tells us to divide the width of the cluster equally among // its chars, so we'll step through the chars, allocating a share of the // total advance to each int32_t current, end, step; if (mTextRun->IsRightToLeft()) { current = limit - 1; end = i - 1; step = -1; } else { current = i; end = limit; step = 1; } gfxFloat leftEdge = 0.0; gfxFloat width = metrics.mAdvanceWidth / (limit - i); while (current != end) { iter.SetupForMetrics(tmpCtx); tmpCtx->NewPath(); tmpCtx->Rectangle(gfxRect(leftEdge, -metrics.mAscent, width, metrics.mAscent + metrics.mDescent)); tmpCtx->IdentityMatrix(); if (tmpCtx->PointInFill(pt)) { // Can't return yet; if there's glyph overlap, the last character // to be rendered wins, so we still have to check the rest... last = current; break; // ...but we don't need to check more slices of this cluster } current += step; leftEdge += width; } } return last; } NS_IMETHODIMP_(nsSVGGlyphFrame *) nsSVGGlyphFrame::GetFirstGlyphFrame() { nsSVGGlyphFrame *frame = this; while (frame && frame->IsTextEmpty()) { frame = frame->GetNextGlyphFrame(); } return frame; } NS_IMETHODIMP_(nsSVGGlyphFrame *) nsSVGGlyphFrame::GetNextGlyphFrame() { nsIFrame* sibling = GetNextSibling(); while (sibling) { nsISVGGlyphFragmentNode *node = do_QueryFrame(sibling); if (node) return node->GetFirstGlyphFrame(); sibling = sibling->GetNextSibling(); } // no more siblings. go back up the tree. NS_ASSERTION(GetParent(), "null parent"); nsISVGGlyphFragmentNode *node = do_QueryFrame(GetParent()); return node ? node->GetNextGlyphFrame() : nullptr; } bool nsSVGGlyphFrame::EndsWithWhitespace() const { const nsTextFragment* text = mContent->GetText(); NS_ABORT_IF_FALSE(text->GetLength() > 0, "text expected"); return NS_IsAsciiWhitespace(text->CharAt(text->GetLength() - 1)); } bool nsSVGGlyphFrame::IsAllWhitespace() const { const nsTextFragment* text = mContent->GetText(); if (text->Is2b()) return false; int32_t len = text->GetLength(); const char* str = text->Get1b(); for (int32_t i = 0; i < len; ++i) { if (!NS_IsAsciiWhitespace(str[i])) return false; } return true; } //---------------------------------------------------------------------- // void nsSVGGlyphFrame::NotifyGlyphMetricsChange() { nsSVGTextContainerFrame *containerFrame = static_cast(mParent); if (containerFrame) containerFrame->NotifyGlyphMetricsChange(); } void nsSVGGlyphFrame::SetupGlobalTransform(gfxContext *aContext, uint32_t aFor) { gfxMatrix matrix = GetCanvasTM(aFor); if (!matrix.IsSingular()) { aContext->Multiply(matrix); } } void nsSVGGlyphFrame::ClearTextRun() { delete mTextRun; mTextRun = nullptr; } bool nsSVGGlyphFrame::EnsureTextRun(float *aDrawScale, float *aMetricsScale, bool aForceGlobalTransform) { // Compute the size at which the text should render (excluding the CTM) const nsStyleFont* fontData = StyleFont(); // Since SVG has its own scaling, we really don't want // fonts in SVG to respond to the browser's "TextZoom" // (Ctrl++,Ctrl+-) nsPresContext *presContext = PresContext(); float textZoom = presContext->TextZoom(); double size = presContext->AppUnitsToFloatCSSPixels(fontData->mSize) / textZoom; double textRunSize; if (mTextRun) { textRunSize = mTextRun->GetFontGroup()->GetStyle()->size; } else { nsAutoString text; if (!GetCharacterData(text)) return false; nsAutoString visualText; /* * XXXsmontagu: The SVG spec says: * * http://www.w3.org/TR/SVG11/text.html#DirectionProperty * "For the 'direction' property to have any effect, the 'unicode-bidi' * property's value must be embed or bidi-override." * * The SVGTiny spec, on the other hand, says * * http://www.w3.org/TR/SVGTiny12/text.html#DirectionProperty * "For the 'direction' property to have any effect on an element that * does not by itself establish a new text chunk (such as the 'tspan' * element in SVG 1.2 Tiny), the 'unicode-bidi' property's value must * be embed or bidi-override." * * Note that this is different from HTML/CSS, where setting the 'dir' * attribute on an inline element automatically sets unicode-bidi: embed * * Our current implementation of bidi in SVG does not distinguish between * different text elements, but treats every text container frame as a * new text chunk, so we always set the base direction according to the * direction property * * See also XXXsmontagu comments in nsSVGTextFrame::UpdateGlyphPositioning */ // Get the unicodeBidi property from the parent, because it doesn't // inherit bool bidiOverride = !!(mParent->StyleTextReset()->mUnicodeBidi & NS_STYLE_UNICODE_BIDI_OVERRIDE); nsBidiLevel baseDirection = StyleVisibility()->mDirection == NS_STYLE_DIRECTION_RTL ? NSBIDI_RTL : NSBIDI_LTR; nsBidiPresUtils::CopyLogicalToVisual(text, visualText, baseDirection, bidiOverride); if (!visualText.IsEmpty()) { text = visualText; } gfxMatrix m; if (aForceGlobalTransform || !(GetStateBits() & NS_STATE_SVG_NONDISPLAY_CHILD)) { m = GetCanvasTM(mGetCanvasTMForFlag); if (m.IsSingular()) return false; } // The context scale is the ratio of the length of the transformed // diagonal vector (1,1) to the length of the untransformed diagonal // (which is sqrt(2)). gfxPoint p = m.Transform(gfxPoint(1, 1)) - m.Transform(gfxPoint(0, 0)); double contextScale = SVGContentUtils::ComputeNormalizedHypotenuse(p.x, p.y); if (StyleSVG()->mTextRendering == NS_STYLE_TEXT_RENDERING_GEOMETRICPRECISION) { textRunSize = PRECISE_SIZE; } else { textRunSize = size*contextScale; textRunSize = std::max(textRunSize, double(CLAMP_MIN_SIZE)); textRunSize = std::min(textRunSize, double(CLAMP_MAX_SIZE)); } const nsFont& font = fontData->mFont; bool printerFont = (presContext->Type() == nsPresContext::eContext_PrintPreview || presContext->Type() == nsPresContext::eContext_Print); gfxFontStyle fontStyle(font.style, font.weight, font.stretch, textRunSize, StyleFont()->mLanguage, font.sizeAdjust, font.systemFont, printerFont, font.languageOverride); font.AddFontFeaturesToStyle(&fontStyle); nsRefPtr fontGroup = gfxPlatform::GetPlatform()->CreateFontGroup(font.name, &fontStyle, presContext->GetUserFontSet()); uint32_t flags = gfxTextRunFactory::TEXT_NEED_BOUNDING_BOX | GetTextRunFlags(text.Length()) | nsLayoutUtils::GetTextRunFlagsForStyle(StyleContext(), StyleFont(), 0); // XXX We should use a better surface here! But then we'd have to // change things so we can ensure we always have the "right" sort of // surface available, by creating the textrun only at the right times nsRefPtr tmpCtx = MakeTmpCtx(); tmpCtx->SetMatrix(m); // Use only the fonts' internal word caching here. // We don't cache the textrun globally because we create // a new fontgroup every time. Even if we cached fontgroups, we // might render at very many different sizes (e.g. during zoom // animation) and caching a textrun for each such size would be bad. gfxTextRunFactory::Parameters params = { tmpCtx, nullptr, nullptr, nullptr, 0, GetTextRunUnitsFactor() }; mTextRun = fontGroup->MakeTextRun(text.get(), text.Length(), ¶ms, flags); if (!mTextRun) return false; } *aDrawScale = float(size/textRunSize); *aMetricsScale = (*aDrawScale)/GetTextRunUnitsFactor(); return true; } //---------------------------------------------------------------------- // helper class CharacterIterator::CharacterIterator(nsSVGGlyphFrame *aSource, bool aForceGlobalTransform) : mSource(aSource) , mCurrentAdvance(0) , mCurrentChar(uint32_t(-1)) , mInError(false) { if (!aSource->EnsureTextRun(&mDrawScale, &mMetricsScale, aForceGlobalTransform) || !aSource->GetCharacterPositions(&mPositions, mMetricsScale)) { mInError = true; } } bool CharacterIterator::SetupForDirectTextRun(gfxContext *aContext, float aScale) { if (!mPositions.IsEmpty() || mInError) return false; aContext->SetMatrix(mInitialMatrix); aContext->Translate(mSource->mPosition); aContext->Scale(aScale, aScale); return true; } uint32_t CharacterIterator::NextCluster() { if (mInError) { #ifdef DEBUG if (mCurrentChar != InvalidCluster()) { bool pastEnd = (mCurrentChar >= mSource->mTextRun->GetLength()); NS_ABORT_IF_FALSE(pastEnd, "Past the end of CharacterIterator. Missing Reset?"); } #endif return InvalidCluster(); } while (true) { if (mCurrentChar != InvalidCluster() && (mPositions.IsEmpty() || mPositions[mCurrentChar].draw)) { mCurrentAdvance += mSource->mTextRun->GetAdvanceWidth(mCurrentChar, 1, nullptr); } ++mCurrentChar; if (mCurrentChar >= mSource->mTextRun->GetLength()) { mInError = true; return InvalidCluster(); } if (mSource->mTextRun->IsClusterStart(mCurrentChar) && (mPositions.IsEmpty() || mPositions[mCurrentChar].draw)) { return mCurrentChar; } } } uint32_t CharacterIterator::ClusterLength() { if (mInError) { return 0; } uint32_t i = mCurrentChar; while (++i < mSource->mTextRun->GetLength()) { if (mSource->mTextRun->IsClusterStart(i)) { break; } } return i - mCurrentChar; } bool CharacterIterator::AdvanceToCharacter(uint32_t aIndex) { while (NextCluster() != InvalidCluster()) { if (mCurrentChar == aIndex) return true; } return false; } void CharacterIterator::SetupFor(gfxContext *aContext, float aScale) { NS_ASSERTION(!mInError, "We should not have reached here"); aContext->SetMatrix(mInitialMatrix); if (mPositions.IsEmpty()) { aContext->Translate(mSource->mPosition); aContext->Scale(aScale, aScale); aContext->Translate(gfxPoint(mCurrentAdvance, 0)); } else { aContext->Translate(mPositions[mCurrentChar].pos); aContext->Rotate(mPositions[mCurrentChar].angle); aContext->Scale(aScale, aScale); } } CharacterPosition CharacterIterator::GetPositionData() { if (!mPositions.IsEmpty()) return mPositions[mCurrentChar]; gfxFloat advance = mCurrentAdvance * mMetricsScale; CharacterPosition cp = { mSource->mPosition + gfxPoint(advance, 0), 0, true }; return cp; }